About this book

Seismic inverse Q filtering is a data processing technology for enhancing the resolution of seismic images. It employs a wave propagation reversal procedure that compensates for energy absorption and corrects wavelet distortion due to velocity dispersion. By compensating for amplitude attenuation, seismic data can provide true relative-amplitude information for amplitude inversion and subsequent reservoir characterization. By correcting the phase distortion, seismic data with enhanced vertical resolution can yield correct timings for lithological identification.

Seismic Inverse Q Filtering presents the theory of inverse Q filtering and a series of algorithms, collected with the following selection criteria in mind: robustness, effectiveness and practicality.

Seismic Inverse Q Filtering is written for processing geophysicists who are attempting to improve the quality of seismic data in terms of resolution and signal-to-noise ratio, as well as for reservoir geophysicists who are concerned about seismic fidelity in terms of true amplitudes, true timings and true frequencies. It will also be particularly valuable as a guide for seasoned geophysicists who are attempting to develop seismic software for various research settings. Finally, it can be used as a reference work or textbook for postgraduate students in seismic and reservoir geophysics.

"In conclusion, this very nice and readable book does fulfill its stated aims, and contains a vast amount of useful, well-presented material that will surely be of immense value to the practitioner."– Pure and Applied Geophysics, 2011

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Biography

Professor Yanghua Wang is Director of the Centre for Reservoir Geophysics, Imperial College London. He is a Fellow of the Institute of Physics (FIntP) and a Fellow of the Royal Astronomical Society (FRAS). He is also a founding editor of the Journal of Geophysics and Engineering, and received the Bonarelli Award (2005) from the European Association of Geoscientists & Engineers.